In order to develop various Zophobas morio cultivation ways, the experiments were conducted to find out the optimal storage and reproduction conditions. Based on the acquired data, the Zophobas morio cultivation technology was developed. The dependencies were found between different fodder substances and the specimens’ growth and reproduction rates. The optimal cultivation fodder substance was also found.
Bukkens, S.G.F. The nutritional value of edi-ble insects. Ecology of Food Nutrition 36: 1997.287-319.
Bukkens, S.G.F. Insects in the human diet: nutritional aspects. In: Ecological Implica-tions of Minilivestock: Potential Of Insects, Rodents, Frogs and Snails. Ed. Paoletti, M. G. New Hampshire Science Publishers. 2005, p. 545-577.
EFSA. (2015). Risk profile related to produc-tion and consumption of insects as food and feed EFSA Scientific Committee. EFSA Jour-nal, 13. doi: 10.2903/j.efsa.2015.4257
Finke, M. D. Complete nutrient composition of commercially raised invertebrates used as food for insectivores. Zoo Biology 21: 2002.269-285
Finke, M. D. (2007). Estimate of chitin in raw whole insects. Zoo Biology, 26(2), 105-115.
Tellam, R.L. Chitin is only a minor compo-nent of the peritrophic matrix from larvae of Lucilia cuprina / R.L. Tellam, C. Eisemann // Insect biochemistry and molecular biology. – 2000. – Vol. 30, N.12. – P.1189–1201.
Chernyshev V.B. Ecology of insects. The Handbook. – Moscow.: Moscow State Uni-versity, 1996 – 304 p. ISBN 5–211–03545–3
Wilson, R. (2010). P. J. Gullan and P. S. Cranston: The insects: an outline of entomol-ogy (4th 594 edition). Journal of Insect Con-servation, 14(6), 745-746.
Tyschenko V.P. Physiology of insects. Hand-book students from specialization Biology. –Moscow: Higher education, 1986.–303p.
Clark L.R., Geier P.W.et al. The ecology of in-sect populations in theory and practice. Lon-don: Methuen, 1967. 232 p.
Varley G. C., Gradwell G. R. and Hassell M. P. Insect Population Ecology: An Analytical Ap-proach Paperback – April 9, 1974 – 219 p.